Quantum control

“Deterministic Benchmarking of Quantum Gates”, [2407.09942] by V. Tripathi, D. Kowsari, K. Saurav, H. Zhang, E. M. Levenson-Falk, D. A. Lidar.

“Simulating nonlinear optical processes on a superconducting quantum device”, [2406.13003] by Y. Shi, B. Evert, A. F. Brown, V. Tripathi, E. A. Sete, V. Geyko, Y. Cho, J. L DuBois, D. A. Lidar, I. Joseph, M. Reagor.

“Quantum Fourier Transform using Dynamic Circuits”, [2403.09514] by E. Bäumer, V. Tripathi, A. Seif, D. A. Lidar, D. S. Wang.

“Error budget of parametric resonance entangling gate with a tunable coupler”, [2402.04238] by E. A. Sete, V. Tripathi, J. A. Valery, D. A. Lidar, J. Y. Mutus.

“Demonstration of Algorithmic Quantum Speedup for an Abelian Hidden Subgroup Problem”, [2401.07934] by P. Singkanipa, V. Kasatkin, Z. Zhou, G. Quiroz, D.A. Lidar.

“Dynamical decoupling for superconducting qubits: A performance survey”, Phys. Rev. Applied 20, 064027, (2023) by N. Ezzell, B. Pokharel, L. Tewala, G. Quiroz and D. A. Lidar [link]

“Optimizing for periodicity: a model-independent approach to flux crosstalk calibration for superconducting circuits”, [2211.01497] by X. Dai, R. Trappen, R. Yang, S. M. Disseler, J. I. Basham, J. Gibson, A. J. Melville, B. M. Niedzielski, R. Das, D. K. Kim, J. L. Yoder, S. J. Weber, C. F. Hirjibehedin, D. A. Lidar, A. Lupascu.

“Suppression of crosstalk in superconducting qubits using dynamical decoupling”, Phys. Rev. Applied 18, 024068 (2022), by V. Tripathi, H. Chen, M. Khezri, Ka-Wa Yip, E. M. Levenson-Falk, D. A. Lidar [link]

“Customized quantum annealing schedules”, Phys. Rev. Applied 17, 044005 (2022), by M. Khezri, X. Dai, R. Yang, T. Albash, A. Lupascu, D. A. Lidar [link]

“Optimal Control for Closed and Open System Quantum Optimization”, Phys. Rev. Applied 16, 054023 (2021), by L. Campos Venuti, D. D’Alessandro and D. A. Lidar [link]

“Prospects for quantum enhancement with diabatic quantum annealing”, Nat Rev Phys 3466–489 (2021), by E. J. Crosson and D. A. Lidar [link]

“Low overhead universality and quantum supremacy using only Z-control”, Phys. Rev. Research 3, 033207 (2021), by B. Barch, R. Mohseninia and D. A. Lidar [link]

“Anneal-path correction in flux qubits”, npj Quantum Information 7, 36 (2021), by M. Khezri, J. Grover, J. Basham, S. Disseler, H. Chen, S. Novikov, K. Zick, D. A. Lidar [link]

“Fast, Lifetime-Preserving Readout for High-Coherence Quantum Annealers”, PRX Quantum 1, 020314, by J. A. Grover, J. I. Basham, A. Marakov, S. M. Disseler, R. T. Hinkey, M. Khalil, Z. A. Stegen, T. Chamberlin, W. DeGottardi, D. J. Clarke, J. R. Medford, J. D. Strand, M. Stoutimore, S. Novikov, D. G. Ferguson, D. A. Lidar, K. M. Zick, A. J. Przybysz [link]

“Why and when is pausing beneficial in quantum annealing?”, Phys. Rev. Applied 14, 014100 (2020),  by H. Chen and D. A. Lidar [link]

“Analog Errors in Quantum Annealing: Doom and Hope” npj Quantum Information 5, 107 (2019), by A. Pearson, A. Mishra, I. Hen and D. A. Lidar [link]

“Nested Quantum Annealing Correction at Finite Temperature: p-spin models”, Phys. Rev. A 99, 062307 (2019), by S. Matsuura, H. Nishimori, W. Vinci, D. A. Lidar [link]

“A Double-Slit Proposal for Quantum Annealing”, npj Quantum Information 5, 2 (2019), by H. Munoz-Bauza, H. Chen, D. A. Lidar [link]

“Demonstration of fidelity improvement using dynamical decoupling with superconducting qubits”, Phys. Rev. Lett. 121, 220502 (2018), by B. Pokharel, N. Anand, B Fortman and D. A. Lidar [link]

“Error Reduction in Quantum Annealing using Boundary Cancellation: Only the End Matters”, Phys. Rev. A 98, 022315 (2018) , by L. Campos Venuti and D. A. Lidar [link]

“Test-driving 1000 qubits”, Quantum Science & Technology 3, 030501 (2018). Special issue on “What would you do with 1000 qubits” , by J. Job and D. A. Lidar [link]

“Quantum trajectories for time-dependent adiabatic master equations”, Phys. Rev. A 97, 022116 (2018), by K. W. Yip, T. Albash, D. A. Lidar [link]

“Scalable effective temperature reduction for quantum annealers via nested quantum annealing correction”, Phys. Rev. A 97, 022308 (2018), by W. Vinci and D. A. Lidar [link]

“Non-stoquastic Hamiltonians in quantum annealing via geometric phases”, Nature Quant. Info. 3, 38 (2017), by W. Vinci and D. A. Lidar [link]

“Suppression of effective noise in Hamiltonian simulations”, Phys. Rev. A 96, 052328 (2017) , by M. Marvian, T. Brun and D. A. Lidar [link]

“Error Suppression for Hamiltonian Quantum Computing in Markovian Environments”, Phys. Rev. A 95, 032302 (2017), by M. Marvian and D. A. Lidar [link]

“Quantum annealing correction at finite temperature: ferromagnetic p-spin models”, Phys. Rev. A 95, 022308 (2017), by S. Matsuura, H. Nishimori, W. Vinci, T. Albash, and D. A. Lidar [link]

“Error suppression for Hamiltonian-based quantum computation using subsystem codes”, Phys. Rev. Lett. 118, 030504 (2017), by M. Marvian and D. A. Lidar [link]

“Quantum speed limits for leakage and decoherence”, Phys. Rev. Lett. 115, 210402 (2015), by I. Marvian, D.A. Lidar [link]

“Quantum Annealing Correction for Random Ising Problems”, Phys. Rev. A 91, 042302 (2015), by K. Pudenz, T. Albash, and D. Lidar. [link]

“Error Corrected Quantum Annealing with Hundreds of Qubits”, Nature Communications 5, 3243 (2014), by K.P. Pudenz, T. Albash, and D.A. Lidar. [link][sup-mat]

“Analysis of the Quantum Zeno Effect for Quantum Control and Computation”, J. Phys. A: Math. Theor. 46, 075306 (2013), by J. Dominy, G. Paz-Silva, A.T. Rezakhani, and D.A. Lidar. [link]

“Decoherence-Protected Quantum Gates for a Hybrid Solid-State Spin Register”, Nature 484, 82 (2012), by T. van der Sar, Z.H. Wang, M.S. Blok, H. Bernien, T.H. Taminiau, D.M. Toyli, D.A. Lidar, D.D. Awschalom, R. Hanson, and V.V. Dobrovitski [link]

“Zeno Effect for Quantum Computation and Control”, Phys. Rev. Lett. 108, 080501 (2012), G. A. Paz-Silva, A. T. Rezakhani, J. Dominy and D.A. Lidar [link]

“Optimal Control Landscape for the Generation of Unitary Transformations with Constrained Dynamics”, Phys. Rev. A 81, 062352 (2010), by M. Hsieh, R. Wu, H. Rabitz, and D.A. Lidar. [link]

“Arbitrarily Accurate Dynamical Control in Open Quantum Systems”, Phys. Rev. Lett 104, 090501 (2010), by K. Khodjasteh, D.A. Lidar, and L. Viola. [link]

“Optimal Dynamical Decoherence Control of a Qubit”, Phys. Rev. Lett. 101, 010403 (2008), by G. Gordon, G. Kurizki, and D.A. Lidar [link]

“Fidelity of Optimally Controlled Quantum Gates with Randomly Coupled Multiparticle Environments”, J. Mod. Optics 54, 2339 (2007), by M. Grace, C. Brif, H. Rabitz, I. Walmsley, R. Kosut, and D.A. Lidar [link]

“Optimal Control of Quantum Gates and Suppression of Decoherence in a System of Interacting Two-Level Particles”, J. Phys. B. 40, S103 (2007) (special issue on “Dynamical Control of Entanglement and Decoherence by Field-Matter Interactions”), by M. Grace, C. Brif, H. Rabitz, I.A. Walmsley, and D.A. Lidar [link]

“Encoding a Qubit into Multilevel Subspaces”, New J. Phys. 8, 35 (2006), by M. Grace, C. Brif, H. Rabitz, I. Walmsley, R. Kosut, and D.A. Lidar [link]

“Stabilizing Qubit Coherence via Tracking-Control”, Quant. Info. and Computation 5, 350 (2005), by D.A. Lidar and S. Schneider [pdf]

“Control of Decoherence: Analysis and Comparison of Three Different Strategies”, Phys. Rev. A 71, 022302 (2005), by P. Facchi, S. Tasaki, S. Pascazio, H. Nakazato, A. Tokuse, and D.A. Lidar [pdf]

“Overview of Quantum Error Prevention and Leakage Elimination”, J. Mod. Optics 51, 2449 (2004), by M.S. Byrd, L.-A. Wu, and D. Lidar [pdf]

“The Manipulation of Massive Ro-vibronic Superpositions Using Time-Frequency-Resolved Coherent Anti-Stokes Raman Scattering (TFRCARS): from Quantum Control to Quantum Computing”, Chemical Physics 266, 323 (2001), R. Zadoyan, D. Kohen, D.A. Lidar, and V.A. Apkarian [pdf]

“How to Teleport Superpositions of Chiral Amplitudes”, Phys. Rev. Lett. 81, 5928 (1998), C.S. Maierle, D.A. Lidar, and Robert A. Harris [pdf]